|Publication number||US4332435 A|
|Application number||US 06/103,656|
|Publication date||Jun 1, 1982|
|Filing date||Dec 14, 1979|
|Priority date||Jan 19, 1979|
|Also published as||CA1133737A, CA1133737A1, DE3001020A1, DE3001020C2|
|Publication number||06103656, 103656, US 4332435 A, US 4332435A, US-A-4332435, US4332435 A, US4332435A|
|Original Assignee||N.K.F. Groep B.V.|
|Export Citation||BiBTeX, EndNote, RefMan|
|Patent Citations (7), Non-Patent Citations (2), Referenced by (49), Classifications (5), Legal Events (1)|
|External Links: USPTO, USPTO Assignment, Espacenet|
The invention relates to a junction box for connecting the ends of two optical cables, each cable comprising at least one fiber for transmitting light signals. The junction box comprises means for storing spare fiber lengths and a guide for accommodating each splice of the ends of two fibers.
A junction box of the type described above is disclosed in German Offenlegungsschrift No. 26.21.852 and is used in optical (tele)communication systems in which information is transmitted by sending light pulses through optical fibers. The box shown in Offenlegungsschrift No. 26.21.852 has two storage spaces limited by three conducting pins, a conducting comb being placed between these spaces for accommodating the spliced optical fiber ends. The spare length of optical fibers present between the splice in the fiber and the ends of the cable are stored in the storage space between the conducting pins.
A drawback is, however, that if the cables contain several optical fibers, all spare lengths must be stored in one and the same storage space. This appears to have the considerable drawback that when making a splice between fiber ends, for example during repair operations or changes in the optical (tele)communication system, the required fiber end must be searched for and found from among all the other ends.
It is an object of the invention to provide a junction box in which the ends of the optical fibers are not indistinguishably mixed together.
The invention is characterized in that the box comprises, for each pair of optical fiber ends to be coupled, an elongate, flat, stackable holder, which is provided with a recess to accommodate a splice of fiber ends. On either side of the recess, the holder comprises a storage space for accommodating the spare length of each fiber associated with the splice.
Such a junction box has the advantage that when making or repairing a connection, each splice and each spare length are individually accessible and distinguishable. This enables a more efficient use of the box, as, for example, in the case of a fracture, the loose ends which move into the spare length storage space owing to the internal tension in the material need not be hunted for between the other spare lengths.
A preferred embodiment of a junction box according to the invention is characterized in that each storage space has an opening through which each spare length, in a parcel of stacked holders, is accessible. The recess for the splice extends into one side of the holder, from opening to opening.
Such a box has the advantage that when repair is necessary, the entire parcel need not be disassembled before the relevant ends can be taken from the storage space. This results in a considerable saving in time.
The junction box according to the invention will be further explained with reference to the drawing.
FIG. 1 shows a partially cut-away top view of a junction box according to the invention.
FIG. 2 shows a partially cut-away elevational view of the box of FIG. 1.
FIG. 3 shows a cross-section through the box shown in FIG. 2.
FIG. 1 shows a partially cut-away top view of a junction box 1 according to the invention. Optical cables 2 are connected to the ends of box 1. The connections are sealed with a water-tight envelope 4, at either end of the box. Envelope 4 may consist of a length of shrink-on sleeve. In the cylindrical housing 3, holders 6 are fixed by means of two bolts 7a and 7b (FIGS. 2 and 3) between two elongate plates 5a and 5b. The elongate plates 5a and 5b are fixed by means of bolts 26 between end plates 8a and 8b (see also FIG. 2). On one side of the housing 3, end plate 8a is attached by means of a screwthread connection 9 (see FIG. 2); on the other side of the housing 3, end plate 8b is attached by means of a sliding fit 10. The optical cable 2 is separated in the box 1 into individual optical fibers 11, which are consecutively fed, via a lead-in opening 12, into individual storage spaces 13 formed in the holders 6. In storage spaces 13, the fibers 11 are wound around the bolts 7a and 7b respectively. The lengths 14 of the optical fibers 11, which were passed into the storage spaces 13 are denoted spare lengths.
In addition, the holders 6 are each provided with a guide for accommodating a splice 15 between the ends of the two optical fibers 11. This guide consists of a recess 16 which is formed in a sidewall 17 of the holder 6 and interconnects openings 18 between the storage spaces 13 and the sidewall 17. (The holder 6 and the box 1 are each symmetrical with respect to the line I--I, except for the screwthread connection 9 and sliding fit 10.)
FIG. 2 shows a partially cut-away (along the line II--II in FIG. 1) elevational view of a junction box 1 according to the invention. The optical cables 2 are fed via a feed-through opening 23 through the end plates 8a and 8b (visible at end plate 8a only). At this point, end plates 8a and 8b are fixed to elongate plate 5b only. The cable 2 is clamped in a feed-through bush 21 by means of a union 19 and a gasket 20 and constitutes a pull relief 22. After connecting the cables 2, the bolts 7a are screwed into the elongate plate 5b, whereafter a holder 6 is placed on the elongate plate 5b. The cables 2 are separated into individual optical fibers 11, one fiber 11 of which is wound a number of times around each bolt 7a (8 to 10 times), on either side of the holder 6 in the storage space 13. When the fiber end is released, the wound fiber 14 (the spare length) will try to unwind itself owing to the internal tensions in the material produced by the winding operations, so that the spare length 14 is pushed against the edge 24 of the storage space 13. Now the spare length still is wound 4 to 6 turns.
The next holder 6 is now put into position, so that the spare lengths 14, stored in the storage spaces 13 of the first-mentioned holder 6 are enclosed and are only accessible through the opening 18. The spare lengths of a next fiber 11 are stored in the storage spaces 13 of the second holder 6, whereafter a third holder 6 is put into position, and so on.
After the last fiber 11 has been stored, elongate plate 5a is fitted to the holders 6 and between the end plates 8a and 8b by means of the bolts 7b and 26. The spare lengths 14 are now enclosed in the storage spaces 13 and are protected from damage. A spare length 14 can be pulled from a storage space 13 through the opening 18, causing the diameter of the turns in the storage space 13 to become smaller (not less than the diameter of the bolt connection). A maximum length equal to n·π·(D-d) can be pulled from the storage space 13, wherein n is the number of turns, D the diameter of the storage space 13 and d the diameter of the bolt 7a. As a result, a length of 1/3 meter can be pulled rather easily from the storage space 13. This length is amply sufficient to make, outside the junction box 1, a splice (between two spare lengths 14 stored in a holder 6) as described in, for example, Electronics Letters, Apr. 28, 1977, Volume 13, No. 9, pages 257 and 258 (cemented splice) or in IEEE Journal of Quantum Electronics, Volume QE-14, No. 8, August 1978, pages 614-619 (butt weld by means of a fusion splicing apparatus).
After a splice 15 has been made a protective sleeve is disposed around it (for example a shrink-on sleeve). The fiber length pulled from the storage space 13 is withdrawn by the mechanical tension in the turns in the storage space 13, as the turns tend to unwind. So the splice 15 is pulled into the recess 16 and retained there. After all splices have been made (for example six in FIG. 2), housing 3 is pushed around the holders 6 by means of the sliding fit 10, and it is then screwed to the end plate 8a. Finally, the watertight envelopes 4 are applied to seal the connections.
FIG. 3 shows a cross-section along the line III--III through the junction box 1 to explain its construction. The lead-in openings 12 in the holders 6, the recesses 16 for the splices 15 (one of which is shown only), the storage spaces 13, the elongate plates 5a and 5b, bolts 7a and 7b, housing 3, and a watertight envelope 4 are distinctly shown.
Furthermore, it will be clear that the holder assembly 6 is not under mechanical stress, as this assembly is enclosed in a frame formed by the elongate plates 5a, 5b and the end plates 8a, 8b. Consequently, the holders 6, which need not satisfy high constructional requirements, may, for example, be made of easily machinable synthetic resin material. Neither is it necessary for the holders 6, as shown, to be solid, but they might consist of a thin, flat plate which is provided with bosses which define a lead-in opening 12, a storage space 13 and a recess. These bosses should therefore be disposed as follows: to the left and to the right of lead-in opening 12 and opening 18, along the edge 24 of the storage space 13 and along the recess 16.
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|FR2363243A1 *||Title not available|
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|JPS5229235A *||Title not available|
|1||*||Hatakeyama et al., "Fusion Splices for Single-Mode Optical Fibers", IEEE J.Q.E., vol. QE-14, No. 8, Aug. 1978, pp. 614-619.|
|2||*||Schilb et al., "Compensating Fiber Splice Technique", Electronics Letters, vol. 13, No. 9, Apr. 1977, pp. 257-258.|
|Citing Patent||Filing date||Publication date||Applicant||Title|
|US4359262 *||Jun 30, 1980||Nov 16, 1982||Northern Telecom Limited||Tray for organizing optical fiber splices and enclosures embodying such trays|
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|US4666240 *||Feb 1, 1985||May 19, 1987||Amp Incorporated||Splice organizer for optical cable splices|
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|US4765709 *||May 12, 1987||Aug 23, 1988||Didier Suillerot||Equipment for distributing and connecting optical fibers|
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|International Classification||G02B6/24, G02B6/44|
|Nov 28, 1980||AS||Assignment|
Owner name: N.K.F. GROEP B.V., J.C. VAN MARKENLAAN 5 RIJSWIJK,
Effective date: 19801013
Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:POST JAN;REEL/FRAME:003812/0756